Journals starting with fimh

FIMH07 * *Functional Imaging and Modeling of the Heart
* Anisotropic Multi-front Fast Marching Method for Real-Time Simulation of Cardiac Electrophysiology, An
* Automated Segmentation of the Left Ventricle Including Papillary Muscles in Cardiac Magnetic Resonance Images
* Automated Tag Tracking Using Gabor Filter Bank, Robust Point Matching, and Deformable Models
* Automated, Accurate and Fast Segmentation of 4D Cardiac MR Images
* Can We Trust the Transgenic Mouse? Insights from Computer Simulations
* Characteristic Strain Pattern of Moderately Ischemic Myocardium Investigated in a Finite Element Simulation Model
* Computer Aided Reconstruction and Motion Analysis of 3D Mitral Annulus
* Computer Simulation of Altered Sodium Channel Gating in Rabbit and Human Ventricular Myocytes
* Constitutive Modeling of Cardiac Tissue Growth
* Constrained Reconstruction of Sparse Cardiac MR DTI Data
* Contributions of the 12 Segments of Left Ventricular Myocardium to the Body Surface Potentials
* Determining Recovery Times from Transmembrane Action Potentials and Unipolar Electrograms in Normal Heart Tissue
* Effect of Noise and Slice Profile on Strain Quantifications of Strain Encoding (SENC) MRI
* Effect of Pacing Site and Infarct Location on Regional Mechanics and Global Hemodynamics in a Model Based Study of Heart Failure
* Effective Estimation in Cardiac Modelling
* Effects of Geometry and Architecture on Re-entrant Scroll Wave Dynamics in Human Virtual Ventricular Tissues
* Experimental Epicardial Potential Mapping in Mouse Ventricles: Effects of Fiber Architecture
* Experimental Framework to Validate 3D Models of Cardiac Electrophysiology Via Optical Imaging and MRI, An
* Experimental Measures of the Minimum Time Derivative of the Extracellular Potentials as an Index of Electrical Activity During Metabolic and Hypoxic Stress
* Extraction of the Coronary Artery Tree in Cardiac Computer Tomographic Images Using Morphological Operators
* Forward and Inverse Solutions of Electrocardiography Problem Using an Adaptive BEM Method
* Framework for Analyzing Confocal Images of Transversal Tubules in Cardiomyocytes, A
* Fully 3D System for Cardiac Wall Deformation Analysis in MRI Data, A
* Hyperelastic Deformable Template for Cardiac Segmentation in MRI, A
* Is There Any Place for Magnetocardiographic Imaging in the Era of Robotic Ablation of Cardiac Arrhythmias?
* Local Wall-Motion Classification in Echocardiograms Using Shape Models and Orthomax Rotations
* Locally Adapted Spatio-temporal Deformation Model for Dense Motion Estimation in Periodic Cardiac Image Sequences
* Mathematical Modeling of Electromechanical Function Disturbances and Recovery in Calcium-Overloaded Cardiomyocytes
* Model for Simulation of Infant Cardiovascular Response to Orthostatic Stress, A
* Noninvasive Electroardiographic Imaging: Application of Hybrid Methods for Solving the Electrocardiography Inverse Problem
* Numerical Analysis of the Resolution of Surface Electrocardiographic Lead Systems
* Open-Source Environment for Interactive Finite Element Modeling of Optimal ICD Electrode Placement
* Parallel Solution in Simulation of Cardiac Excitation Anisotropic Propagation
* Reconstruction of Detailed Left Ventricle Motion from tMRI Using Deformable Models
* Relating Discontinuous Cardiac Electrical Activity to Mesoscale Tissue Structures: Detailed Image Based Modeling
* Scroll Waves in 3D Virtual Human Atria: A Computational Study
* Segmentation of Myocardial Regions in Echocardiography Using the Statistics of the Radio-Frequency Signal
* Simulation of 3D Ultrasound with a Realistic Electro-mechanical Model of the Heart
* Simulations of Cardiac Electrophysiological Activities Using a Heart-Torso Model
* Simultaneous High-Resolution Electrical Imaging of Endocardial, Epicardial and Torso-Tank Surfaces Under Varying Cardiac Metabolic Load and Coronary Flow
* Statistical Comparison of Cardiac Fibre Architectures
* Strain Measurement in the Left Ventricle During Systole with Deformable Image Registration
* Three Dimensional Ventricular E-Cell (3Dv E-Cell) with Stochastic Intracellular Ca 2+ Handling, A
* Towards Noninvasive 3D Imaging of Cardiac Arrhythmias
* Towards the Numerical Simulation of Electrocardiograms
* Vessel Enhancement in 2D Angiographic Images
* Visualisation of Dog Myocardial Structure from Diffusion Tensor Magnetic Resonance Imaging: The Paradox of Uniformity and Variability
* Volumetric Analysis of the Heart Using Echocardiography
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FIMH11 * *Functional Imaging and Modeling of the Heart
* 3D Fusion Echocardiography Improves Transoeosphageal LV Assessment
* 3D MRI-Based Cardiac Computer Model to Study Arrhytmia and Its In-vivo Experimental Validation, A
* 4D Cardiac Reconstruction Using High Resolution CT Images
* Anisotropic Mass-Spring Method Accurately Simulates Mitral Valve Closure from Image-Based Models
* Anode Make and Break Excitation Mechanisms and Strength-Interval Curves: Bidomain Simulations in 3D Rotational Anisotropy
* Are Robotic-Assisted Catheter Ablation Lesions Different from Standard Catheter Ablation in Paroxysmal AF Patients? Novel CMRI Findings Made Possible with Semi-automatic 3-D Visualisation
* Automated Segmentation and Classification Framework for CT-Based Myocardial Perfusion Imaging for Detecting Myocardial Perfusion Defect, An
* Automatic Data Assimilation Framework for Patient-Specific Myocardial Mechanical Parameter Estimation, An
* Automatic Delineation of Left and Right Ventricles in Cardiac MRI Sequences Using a Joint Ventricular Model
* Automatic Segmentation of Cardiac CTs - Personalized Atrial Models Augmented with Electrophysiological Structures
* Automatic Segmentation of Different Pathologies from Cardiac Cine MRI Using Registration and Multiple Component EM Estimation
* Automatic Segmentation of Left Atrial Scar from Delayed-Enhancement Magnetic Resonance Imaging
* Cardiac Deformation from Electro-Anatomical Mapping Data: Application to Scar Characterization
* Cardiac Motion Estimation from 3D Echocardiography with Spatiotemporal Regularization
* Cardiac MRI Intervention and Diagnosis via Deformable Collaborative Tracking
* Comparing Image-Based Respiratory Motion Correction Methods for Anatomical Roadmap Guided Cardiac Electrophysiology Procedures
* Comparing Simulated Electrocardiograms of Different Stages of Acute Cardiac Ischemia
* Constitutive Parameter Estimation Methodology Using Tagged-MRI Data
* Construction of Left Ventricle 3D Shape Atlas from Cardiac MRI
* Driving Dynamic Cardiac Model Adaptation with MR-Tagging Displacement Information
* Dynamic Classification of Cellular Transmural TransMembrane Potential (TMP) Activity of the Heart
* Effect of Scar Development on Fast Electrophysiological Models of the Human Heart: In-Silico Study on Atlas-Based Virtual Populations
* Estimation of Activation Times in Cardiac Tissue Using Graph Based Methods
* Framework Combining Multi-sequence MRI for Fully Automated Quantitative Analysis of Cardiac Global And Regional Functions, A
* Hybrid Method for Automatic Anatomical Variant Detection and Segmentation, A
* In Silico Analysis of the Impact of Transmural Myocardial Infarction on Cardiac Mechanical Dynamics for the 17 AHA Segments
* Interpreting Optical Mapping Recordings in the Ischemic Heart: A Combined Experimental and Computational Investigation
* Left-Ventricular Shape Determines Intramyocardial Stroke Work Distribution
* MagnetoHemoDynamics Effect on Electrocardiograms
* Mapping Contact Force during Catheter Ablation for the Treatment of Atrial Fibrillation: New Insights into Ablation Therapy
* Modeling Atrial Fiber Orientation in Patient-Specific Geometries: A Semi-automatic Rule-Based Approach
* Modeling Mitral Valve Leaflets from Three-Dimensional Ultrasound
* Monitoring Treatment Outcome: A Visualization Prototype for Left Ventricular Transformation
* Morphological Classification: Application to Cardiac MRI of Tetralogy of Fallot
* Multi-frame Radial Basis Functions to Combine Shape and Speckle Tracking for Cardiac Deformation Analysis in Echocardiography
* Multiview Diffeomorphic Registration for Motion and Strain Estimation from 3D Ultrasound Sequences
* On the Estimation of Transmural Myocardial Shear by Means of MRI Tagging
* Order Statistic Based Cardiac Boundary Detection in 3D+t Echocardiograms
* Parameter Identification in Cardiac Electrophysiology Using Proper Orthogonal Decomposition Method
* Patient-Specific Model of Left Heart Anatomy, Dynamics and Hemodynamics from 4D TEE: A First Validation Study
* Pyramid Histograms of Motion Context with Application to Angiogram Video Classification
* Real-Time Cardiac MR Anatomy and Dyssynchrony Overlay for Guidance of Cardiac Resynchronization Therapy Procedures: Clinical Results Update
* Recovering Endocardial Walls from 3D TEE
* Regionally Optimised Mathematical Models of Cardiac Myocyte Orientation in Rat Hearts
* Sensitivity Analysis of Mesh Warping and Subsampling Strategies for Generating Large Scale Electrophysiological Simulation Data
* Shape Analysis of the Left Ventricular Endocardial Surface and Its Application in Detecting Coronary Artery Disease
* Simulating Drug-Induced Effects on the Heart: From Ion Channel to Body Surface Electrocardiogram
* Simulation of Diffusion Anisotropy in DTI for Virtual Cardiac Fiber Structure
* Slice-Based Combination of Rest and Dobutamine: Stress Cardiac MRI Using a Statistical Motion Model to Identify Myocardial Infarction: Validation against Contrast-Enhanced MRI
* Statistical Analysis of the Human Cardiac Fiber Architecture from DT-MRI
* Towards High Resolution Computational Models of the Cardiac Conduction System: A Pipeline for Characterization of Purkinje-Ventricular-Junctions
* Towards Patient Specific Catheter Selection: Computation of Aortic Geometry Based on Fused MRI Data
* Trials on Tissue Contractility Estimation from Cardiac Cine MRI Using a Biomechanical Heart Model
* Ultrasound-Driven Kinematic Model of the Heart That Enforces Local Incompressibility, An
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FIMH15 * *Functional Imaging and Modeling of the Heart
* 3D Farnebäck Optic Flow for Extended Field of View of Echocardiography
* Application of Diffuse Optical Reflectance to Measure Myocardial Wall Thickness and Presence of Infarct Scar: A Monte Carlo Simulation Study
* Assessment of Myofiber Orientation in High Resolution Phase-Contrast CT Images
* Assessment of Septal Motion Abnormalities in Left Bundle Branch Block Patients Using Computer Simulations
* Automated Quantification of Myocardial Infarction Using a Hidden Markov Random Field Model and the EM Algorithm
* Automatic LV Feature Detection and Blood-Pool Tracking from Multi-plane TEE Time Series
* Cardiac Fibers Estimation from Arbitrarily Spaced Diffusion Weighted MRI
* Cardiac Motion Estimation Using Ultrafast Ultrasound Imaging Tested in a Finite Element Model of Cardiac Mechanics
* Characterization of Myocardial Velocities by Multiple Kernel Learning: Application to Heart Failure with Preserved Ejection Fraction
* Comprehensive Framework for the Characterization of the Complete Mitral Valve Geometry for the Development of a Population-Averaged Model, A
* Computational Modelling of Low Voltage Resonant Drift of Scroll Waves in the Realistic Human Atria
* Cross-Frame Ultrasonic Color Doppler Flow Heart Image Unwrapping
* Data-Driven Feature Learning for Myocardial Segmentation of CP-BOLD MRI
* Data-Driven Model Reduction for Fast, High Fidelity Atrial Electrophysiology Computations
* Determining Anisotropic Myocardial Stiffness from Magnetic Resonance Elastography: A Simulation Study
* Efficient Numerical Schemes for Computing Cardiac Electrical Activation over Realistic Purkinje Networks: Method and Verification
* Field-Based Parameterisation of Cardiac Muscle Structure from Diffusion Tensors
* Finite Element Simulations Explore a Novel Strategy for Surgical Repair of Congenital Aortic Valve Insufficiency
* Fluid-Structure Interaction Model of Human Mitral Valve within Left Ventricle
* Framework for Determination of Heart Valves' Mechanical Properties Using Inverse-Modeling Approach, A
* Fuzzy Segmentation of the Left Ventricle in Cardiac MRI Using Physiological Constraints
* Hemodynamics in Aortic Regurgitation Simulated Using a Computational Cardiovascular System Model
* How to Choose Myofiber Orientation in a Biventricular Finite Element Model?
* Image-Derived Human Left Ventricular Modelling with Fluid-Structure Interaction
* Influence of Polivinylalcohol Cryogel Material Model in FEM Simulations on Deformation of LV Phantom
* Inverse Problem of Electrocardiography: Estimating the Location of Cardiac Ischemia in a 3D Realistic Geometry
* Issues in Modeling Cardiac Optical Mapping Measurements
* Learning a Global Descriptor of Cardiac Motion from a Large Cohort of 1000+ Normal Subjects
* Left and Right Atrial Contribution to the P-wave in Realistic Computational Models
* Left Atrial Segmentation from 3D Respiratory- and ECG-gated Magnetic Resonance Angiography
* Microstructural Remodelling and Mechanics of Hypertensive Heart Disease
* Myocardial Stiffness Estimation: A Novel Cost Function for Unique Parameter Identification
* Orthogonal Shape Modes Describing Clinical Indices of Remodeling
* Patient-Specific Biomechanical Modeling of Cardiac Amyloidosis: A Case Study
* Personalization of Atrial Electrophysiology Models from Decapolar Catheter Measurements
* Prediction of Clinical Information from Cardiac MRI Using Manifold Learning
* Principal Component Analysis for the Classification of Cardiac Motion Abnormalities Based on Echocardiographic Strain and Strain Rate Imaging
* Probabilistic Edge Map (PEM) for 3D Ultrasound Image Registration and Multi-atlas Left Ventricle Segmentation
* Propagation of Myocardial Fibre Architecture Uncertainty on Electromechanical Model Parameter Estimation: A Case Study
* Quantification of Gaps in Ablation Lesions Around the Pulmonary Veins in Delayed Enhancement MRI
* Quantifying Structural and Functional Differences Between Normal and Fibrotic Ventricles
* Quantitative Analysis of Lead Position vs. Correction of Electrical Dyssynchrony in an Experimental Model of LBBB/CRT
* Relationship Between Cardiac Electrical and Mechanical Activation Markers by Coupling Bidomain and Deformation Models
* Revealing Differences in Anatomical Remodelling of the Systemic Right Ventricle
* Role of Endocardial Trabeculations in Low-Energy Defibrillation, The
* Sensitivity Analysis of Diffusion Tensor MRI in Simulated Rat Myocardium
* Sensitivity of the Electrocardiography Inverse Solution to the Torso Conductivity Uncertainties
* Sequential State Estimation for Electrophysiology Models with Front Level-Set Data Using Topological Gradient Derivations
* Sparsity and Biomechanics Inspired Integration of Shape and Speckle Tracking for Cardiac Deformation Analysis
* Steps Towards Quantification of the Cardiological Stress Exam
* Subject Independent Reference Frame for the Left Ventricular Detailed Cardiac Anatomy
* Towards Automatic Assessment of the Mitral Valve Coaptation Zone from 4D Ultrasound
* Very High-Resolution Imaging of Post-Mortem Human Cardiac Tissue Using X-Ray Phase Contrast Tomography
* Viewpoint Recognition in Cardiac CT Images
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FIMH17 * *Functional Imaging and Modeling of the Heart
* 3D Coronary Vessel Tracking in X-Ray Projections
* 3D Motion Modeling and Reconstruction of Left Ventricle Wall in Cardiac MRI
* Adjustment of Parameters in Ionic Models Using Optimal Control Problems
* Analysis of Activation-Recovery Intervals from Intra-cardiac Electrograms in a Pre-clinical Chronic Model of Myocardial Infarction
* Analysis of Coronary Contrast Agent Transport in Bolus-Based Quantitative Myocardial Perfusion MRI Measurements with Computational Fluid Dynamics Simulations
* Assessment of Atrioventricular Valve Regurgitation Using Biomechanical Cardiac Modeling
* Assessment of Haemodynamic Remodeling in Fetal Aortic Coarctation Using a Lumped Model of the Circulation
* Cartan Frames for Heart Wall Fiber Motion
* Characterizing Patterns of Response During Mild Stress-Testing in Continuous Echocardiography Recordings Using a Multiview Dimensionality Reduction Technique
* Combining Deformation Modeling and Machine Learning for Personalized Prosthesis Size Prediction in Valve-Sparing Aortic Root Reconstruction
* Estimating 3D Ventricular Shape From 2D Echocardiography: Feasibility and Effect of Noise
* Estimation of Local Conduction Velocity from Myocardium Activation Time: Application to Cardiac Resynchronization Therapy
* FastVentricle: Cardiac Segmentation with ENet
* Feasibility of the Estimation of Myocardial Stiffness with Reduced 2D Deformation Data
* Feature Tracking Cardiac Magnetic Resonance via Deep Learning and Spline Optimization
* Identification of Transversely Isotropic Properties from Magnetic Resonance Elastography Using the Optimised Virtual Fields Method
* Image Segmentation and Modeling of the Pediatric Tricuspid Valve in Hypoplastic Left Heart Syndrome
* Image-Based Modeling of the Heterogeneity of Propagation of the Cardiac Action Potential. Example of Rat Heart High Resolution MRI
* Improving the Spatial Solution of Electrocardiographic Imaging: A New Regularization Parameter Choice Technique for the Tikhonov Method
* Improving Understanding of Long-Term Cardiac Functional Remodelling via Cross-Sectional Analysis of Polyaffine Motion Parameters
* In Silico Analysis of Haemodynamics in Patient-Specific Left Atria with Different Appendage Morphologies
* In Vivo Parametric T1 Maps Correlate with Structural and Molecular Characteristics of Focal Fibrosis
* Learning-Based Heart Coverage Estimation for Short-Axis Cine Cardiac MR Images
* Longitudinal Parameter Estimation in 3D Electromechanical Models: Application to Cardiovascular Changes in Digestion
* Microstructural Analysis of Cardiac Endomyocardial Biopsies with Synchrotron Radiation-Based X-Ray Phase Contrast Imaging
* Microstructurally Anchored Cardiac Kinematics by Combining In Vivo DENSE MRI and cDTI
* Modeling of Myocardium Compressibility and its Impact in Computational Simulations of the Healthy and Infarcted Heart
* Multi-cycle Reconstruction of Cardiac MRI for the Analysis of Inter-ventricular Septum Motion During Free Breathing
* Multiple Kernel Learning Framework to Investigate the Relationship Between Ventricular Fibrillation and First Myocardial Infarction, A
* Noise Sensitive Trajectory Planning for MR Guided TAVI
* One Mesh to Rule Them All: Registration-Based Personalized Cardiac Flow Simulations
* Parameter Optimization to Solve the Inverse Problem in Electrocardiography, A
* Patient-Specific Computational Fluid Dynamics Model of the Left Atrium in Atrial Fibrillation: Development and Initial Evaluation, A
* Prediction of Post-Ablation Outcome in Atrial Fibrillation Using Shape Parameterization and Partial Least Squares Regression
* Random Forest Based Left Ventricle Segmentation in LGE-MRI
* Real-Time Guiding Catheter and Guidewire Detection for Congenital Cardiovascular Interventions
* Robust Model-Based Registration of Cardiac MR Images for T1 and ECV Mapping
* Rule-Based Method to Model Myocardial Fiber Orientation for Simulating Ventricular Outflow Tract Arrhythmias, A
* Slice-to-Volume Image Registration Models for MRI-Guided Cardiac Procedures
* Smoothed Particle Hydrodynamics for Electrophysiological Modeling: An Alternative to Finite Element Methods
* Sparse Bayesian Non-linear Regression for Multiple Onsets Estimation in Non-invasive Cardiac Electrophysiology
* Statistical Atlases for Electroanatomical Mapping of Cardiac Arrhythmias
* Strain-Based Parameters for Infarct Localization: Evaluation via a Learning Algorithm on a Synthetic Database of Pathological Hearts
* Three-Dimensional Quantification of Myocardial Collagen Morphology from Confocal Images
* Towards Cognition-Guided Patient-Specific FEM-Based Cardiac Surgery Simulation
* Using Atlas Prior with Graph Cut Methods for Right Ventricle Segmentation from Cardiac MRI
* Variance Based Sensitivity Analysis of IKr in a Model of the Human Atrial Action Potential Using Gaussian Process Emulators
* VT Scan: Towards an Efficient Pipeline from Computed Tomography Images to Ventricular Tachycardia Ablation
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FIMH19 * *Functional Imaging and Modeling of the Heart
* 3D Coronary Vessel Tree Tracking in X-Ray Projections
* 3D High Resolution Imaging of Human Heart for Visualization of the Cardiac Structure
* Adversarial Network Architecture Using 2D U-Net Models for Segmentation of Left Ventricle from Cine Cardiac MRI, An
* Analysis of Three-Chamber View Tagged Cine MRI in Patients with Suspected Hypertrophic Cardiomyopathy
* Cardiac Displacement Tracking with Data Assimilation Combining a Biomechanical Model and an Automatic Contour Detection
* Comparing Subjects with Reference Populations - A Visualization Toolkit for the Analysis of Aortic Anatomy and Pressure Distribution
* Computational Approach on Sensitivity of Left Ventricular Wall Strains to Geometry, A
* Correcting Undersampled Cardiac Sources in Equivalent Double Layer Forward Simulations
* Deep Learning Formulation of ECGI for Data-Driven Integration of Spatiotemporal Correlations and Imaging Information
* Development of a Computational Fluid Dynamics (CFD)-Model of the Arterial Epicardial Vasculature
* Domain Adaptation via Dimensionality Reduction for the Comparison of Cardiac Simulation Models
* End-Diastolic and End-Systolic LV Morphology in the Presence of Cardiovascular Risk Factors: A UK Biobank Study
* EP-Net: Learning Cardiac Electrophysiology Models for Physiology-Based Constraints in Data-Driven Predictions
* Fibrillation Patterns Creep and Jump in a Detailed Three-Dimensional Model of the Human Atria
* FR-Net: Joint Reconstruction and Segmentation in Compressed Sensing Cardiac MRI
* Fully Automated Electrophysiological Model Personalisation Framework from CT Imaging
* GRÖMeR: A Pipeline for Geodesic Refinement of Mesh Registration
* High-Resolution Ex Vivo Microstructural MRI After Restoring Ventricular Geometry via 3D Printing
* Interactive-Automatic Segmentation and Modelling of the Mitral Valve
* Interpolating Low Amplitude ECG Signals Combined with Filtering According to International Standards Improves Inverse Reconstruction of Cardiac Electrical Activity
* Investigating the 3D Local Myocytes Arrangement in the Human LV Mid-Wall with the Transverse Angle
* Large Scale Cardiovascular Model Personalisation for Mechanistic Analysis of Heart and Brain Interactions
* Left Ventricular Shape and Motion Reconstruction Through a Healthy Model for Characterizing Remodeling After Infarction
* Maximal Conductaances Ionic Parameters Estimation in Cardiac Electrophysiology Multiscale Modelling
* Mesh Based Approximation of the Left Ventricle Using a Controlled Shrinkwrap Algorithm
* Minimally-Invasive Estimation of Patient-Specific End-Systolic Elastance Using a Biomechanical Heart Model
* Model Assessment Through Data Assimilation of Realistic Data in Cardiac Electrophysiology
* Model of Left Ventricular Contraction: Validation Criteria and Boundary Conditions
* Model-Based Indices of Early-Stage Cardiovascular Failure and Its Therapeutic Management in Fontan Patients
* Modeling Cardiac Growth: An Alternative Approach
* Numerical Method for the Optimal Adjustment of Parameters in Ionic Models Accounting for Restitution Properties, A
* On Sampling Spatially-Correlated Random Fields for Complex Geometries
* Pipeline to Build and Test Robust 3D T1 Mapping-Based Heart Models for EP Interventions: Preliminary Results
* Simple Multi-scale Model to Evaluate Left Ventricular Growth Laws, A
* SMOD - Data Augmentation Based on Statistical Models of Deformation to Enhance Segmentation in 2D Cine Cardiac MRI
* Solution to the Unknown Boundary Tractions in Myocardial Material Parameter Estimations
* Spatial Adaptation of the Time Delay Neural Network for Solving ECGI Inverse Problem, A
* Spatial Downsampling of Surface Sources in the Forward Problem of Electrocardiography
* Standard Quasi-Conformal Flattening of the Right and Left Atria
* Synchrotron X-Ray Phase Contrast Imaging and Deep Neural Networks for Cardiac Collagen Quantification in Hypertensive Rat Model
* Tissue Drives Lesion: Computational Evidence of Interspecies Variability in Cardiac Radiofrequency Ablation
* Towards Automated Quantification of Atrial Fibrosis in Images from Catheterized Fiber-Optics Confocal Microscopy Using Convolutional Neural Networks
* Transcriptomic Approaches to Modelling Long Term Changes in Human Cardiac Electrophysiology
* Validation of Equilibrated Warping: Image Registration with Mechanical Regularization: On 3D Ultrasound Images
* Ventricle Surface Reconstruction from Cardiac MR Slices Using Deep Learning
* Virtual Catheter Ablation of Target Areas Identified from Image-Based Models of Atrial Fibrillation
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FIMH21 * *Functional Imaging and Modeling of the Heart
* 3-D Intraventricular Vector Flow Mapping Using Triplane Doppler Echo
* Analysis of Location-Dependent Cardiomyocyte Branching
* Arbitrary Point Tracking with Machine Learning to Measure Cardiac Strains in Tagged MRI
* Assessment of Geometric Models for the Approximation of Aorta Cross-Sections
* Cardiac Modeling for Multisystem Inflammatory Syndrome in Children (MIS-C, PIMS-TS)
* Cardiac MRI Left Ventricular Segmentation and Function Quantification Using Pre-trained Neural Networks
* Cardiac Support for the Right Ventricle: Effects of Timing on Hemodynamics-Biomechanics Tradeoff
* CNN-Based Cardiac Motion Extraction to Generate Deformable Geometric Left Ventricle Myocardial Models from Cine MRI
* Computational Approach on Sensitivity of Left Ventricular Wall Strains to Fiber Orientation, A
* Computational Modelling of the Role of Atrial Fibrillation on Cerebral Blood Perfusion
* Deep Adaptive Electrocardiographic Imaging with Generative Forward Model for Error Reduction
* Diffusion Biomarkers in Chronic Myocardial Infarction
* Domain Adaptation for Automatic Aorta Segmentation of 4D Flow Magnetic Resonance Imaging Data from Multiple Vendor Scanners
* Effect of Modeling Assumptions on the ECG in Monodomain and Bidomain Simulations, The
* Effect of Ventricular Myofibre Orientation on Atrial Dynamics, The
* Effects of Fibre Orientation on Electrocardiographic and Mechanical Functions in a Computational Human Biventricular Model
* Efficient Model Monitoring for Quality Control in Cardiac Image Segmentation
* EP-Net 2.0: Out-of-Domain Generalisation for Deep Learning Models of Cardiac Electrophysiology
* Exploratory Assessment of Focused Septal Growth in Hypertrophic Cardiomyopathy, An
* Fast and Accurate Uncertainty Quantification for the ECG with Random Electrodes Location
* Framework for Evaluating Myocardial Stiffness Using 3D-Printed Heart Phantoms, A
* From Clinical Imaging to Patient-Specific Computational Model: Rapid Adaptation of the Living Heart Human Model to a Case of Aortic Stenosis
* Geometric Deep Learning for the Assessment of Thrombosis Risk in the Left Atrial Appendage
* High-Fidelity 3D Micromechanical Model of Ventricular Myocardium, A
* High-Speed Simulation of the 3D Behavior of Myocardium Using a Neural Network PDE Approach
* Image Registration Framework to Estimate 3D Myocardial Strains from Cine Cardiac MRI in Mice, An
* Image-Derived Geometric Characteristics Predict Abdominal Aortic Aneurysm Growth in a Machine Learning Model
* Impact of Image Resolution and Resampling on Motion Tracking of the Left Chambers from Cardiac Scans
* Improved High Frame Rate Speckle Tracking for Echocardiography
* In Silico Mapping of the Omecamtiv Mecarbil Effects from the Sarcomere to the Whole-Heart and Back Again
* In Vivo Pressure-Volume Loops and Chamber Stiffness Estimation Using Real-Time 3D Echocardiography and Left Ventricular Catheterization: Application to Post-heart Transplant Patients
* In-Silico Analysis of the Influence of Pulmonary Vein Configuration on Left Atrial Haemodynamics and Thrombus Formation in a Large Cohort
* Intra-cardiac Signatures of Atrial Arrhythmias Identified by Machine Learning and Traditional Features
* Investigation of the Impact of Normalization on the Study of Interactions Between Myocardial Shape and Deformation
* Learning Atrial Fiber Orientations and Conductivity Tensors from Intracardiac Maps Using Physics-Informed Neural Networks
* M-SiSSR: Regional Endocardial Function Using Multilabel Simultaneous Subdivision Surface Registration
* Methodology for Accessing the Local Arrangement of the Sheetlets that Make up the Extracellular Heart Tissue, A
* Model-Assisted Time-Synchronization of Cardiac MR Image and Catheter Pressure Data
* Modeling Patient-Specific Periaortic Interactions with Static and Dynamic Structures Using a Moving Heterogeneous Elastic Foundation Boundary Condition
* Multi-step Machine Learning Approach for Short Axis MR Images Segmentation, A
* Multiscale Graph Convolutional Networks for Cardiac Motion Analysis
* On the Interrelationship Between Left Ventricle Infarction Geometry and Ischemic Mitral Regurgitation Grade
* Optimisation of Left Atrial Feature Tracking Using Retrospective Gated Computed Tomography Images
* Parameter Estimation in a Rule-Based Fiber Orientation Model from End Systolic Strains Using the Reduced Order Unscented Kalman Filter
* Personal-by-Design: A 3D Electromechanical Model of the Heart Tailored for Personalisation
* Population-Based Personalization of Geometric Models of Myocardial Infarction
* Quantitative Hemodynamics in Aortic Dissection: Comparing in Vitro MRI with FSI Simulation in a Compliant Model
* Quantitative Interpretation of Myocardial Fiber Structure in the Left and Right Ventricle of an Equine Heart Using Diffusion Tensor Cardiovascular Magnetic Resonance Imaging
* Reproducibility of Left Ventricular CINE DENSE Strain in Pediatric Subjects with Duchenne Muscular Dystrophy
* Role of Extra-Coronary Vascular Conditions that Affect Coronary Fractional Flow Reserve Estimation, The
* Scar-Related Ventricular Arrhythmia Prediction from Imaging Using Explainable Deep Learning
* Sensitivity Analysis of a Smooth Muscle Cell Electrophysiological Model
* Sensitivity of Myocardial Stiffness Estimates to Inter-observer Variability in LV Geometric Modelling
* Shape Analysis and Computational Fluid Simulations to Assess Feline Left Atrial Function and Thrombogenesis
* Shape Constraints in Deep Learning for Robust 2D Echocardiography Analysis
* Simplified Electrophysiology Modeling Framework to Assess Ventricular Arrhythmia Risk in Infarcted Patients
* Simultaneous Multi-heartbeat ECGI Solution with a Time-Varying Forward Model: A Joint Inverse Formulation
* Spatially Constrained Deep Learning Approach for Myocardial T1 Mapping
* Spiral Waves Generation Using an Eikonal-Reaction Cardiac Electrophysiology Model
* Systematic Study of Joint Influence of Angular Resolution and Noise in Cardiac Diffusion Tensor Imaging
* Three-Dimensional Embedded Attentive RNN (3D-EAR) Segmentor for Left Ventricle Delineation from Myocardial Velocity Mapping
* Uncertainty Quantification of the Effects of Segmentation Variability in ECGI
* Using the Universal Atrial Coordinate System for MRI and Electroanatomic Data Registration in Patient-Specific Left Atrial Model Construction and Simulation
* Volume Source Method for Solving ECGI Inverse Problem, A
* Whole Heart Anatomical Refinement from CCTA Using Extrapolation and Parcellation
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